Towards virtual reality infinite walking

Sun, Qi; Patney, Anjul; Wei, Li-Yi; Shapira, Omer; Lu, Jingwan; Asente, Paul; Zhu, Suwen; McGuire, Morgan; Luebke, David; Kaufman, Arie

doi:10.1145/3197517.3201294

Cited by 176 publications

(112 citation statements)

References 54 publications

Supporting

Mentioning

110

Contrasting

Unclassified

Order By: Relevance

“…The authors performed extensive experiments to determine the thresholds of rotational and translational gains that can be introduced during the blink. Concurrently, Sun et al in [50] leveraged the perceptual blindness occurring before, during, and after the saccades to update the environment quickly over several frames. A common disadvantage of these techniques is the fact that they are disruptive to the cognitive task at hand, since they rely on stimulating saccades by introducing artifacts in the rendered image to distract the user's attention.…”

Section: Redirection and Vrmentioning

confidence: 99%

“…In our work, we leverage this physiological phenomenon to refresh the foveal zone render and therefore redirect the user multiple times per minute during blinks. Furthermore, we leverage information reported in recent studies for determining the maximum rotational and translational thresholds for VR during blinks and saccades [4,21,23,50] to update the VE and refresh the render without the user perceiving anything.…”

Section: Steering Algorithms Resetting Phase and Natural Visual Suppmentioning

confidence: 99%

“…Although in recent years researchers have proposed many software-based techniques for simulating perceptually-guided foveated rendering e.g. [12,32,47,50], it was until the very recent introduction of Nvidia's Variable Rate Shading [29] that foveated rendering was supported in hardware and integrated into the rendering pipeline. This integration has reduced latency and aliasing effects close to zero as it was demonstrated by the real-time visualization platform called ZeroLight [30].…”

Section: Dynamic Foveated Renderingmentioning

confidence: 99%

“…Applying these rotations to the VE, however subtle, can negatively impact the sense of immersion of the user. The reason for this is because these techniques either employ warping which introduces visual artifacts and distortions in the VE or even simulation sickness [10], or rely on forcing the user to look away by stimulating saccades in order to update the environment during a rapid eye movement as in [50].…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Inattentional Blindness for Redirected Walking Using Dynamic Foveated Rendering

Joshi

Poullis

2020

IEEE Access

View full text Add to dashboard Cite

Figure 1: Left: Orientation-based redirection using dynamic-foveated rendering which leverages the effect of inattentional blindness induced by a cognitive task. The blending (e.g. parallax of green alien) in the transition zone between the rotated virtual environment (VE) (non-foveal) and the non-rotated VE (foveal) is imperceptible by the users due to inattentional blindness. Right: The path walked in physical tracked space (PTS) up to that point is shown in orange color. The corresponding path in the VE is shown in blue color. The cyan-colored box indicates the 4 × 4m 2 available PTS and the camera icon inside the box indicates the location of the user w.r.t. the PTS. Even with room-scale PTS such as the one used, the users were able to walk distances in the virtual environment (VE) which are up to almost 18× orders of magnitude higher than the longest distance in the PTS; maximum recorded in experiments was 103.9m. Angular gain for the frame shown is at its maximum i.e. 13.5 • . ABSTRACTRedirected walking is a Virtual Reality(VR) locomotion technique which enables users to navigate virtual environments (VEs) that are spatially larger than the available physical tracked space.In this work we present a novel technique for redirected walking in VR based on the psychological phenomenon of inattentional blindness. Based on the user's visual fixation points we divide the user's view into zones. Spatially-varying rotations are applied according to the zone's importance and are rendered using foveated rendering. Our technique is real-time and applicable to small and large physical spaces. Furthermore, the proposed technique does not require the use of stimulated saccades but rather takes advantage of naturally occurring saccades and blinks for a complete refresh of the framebuffer. We performed extensive testing and present the analysis of the results of three user studies conducted for the evaluation.

show abstract

Section: Redirection and Vrmentioning

confidence: 99%

Section: Steering Algorithms Resetting Phase and Natural Visual Suppmentioning

confidence: 99%

Section: Dynamic Foveated Renderingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Inattentional Blindness for Redirected Walking Using Dynamic Foveated Rendering

Joshi

Poullis

2020

IEEE Access

View full text Add to dashboard Cite

show abstract

“…Eye Tracking in Virtual Reality Current applications of eye movements in VR are driving investments in the next generation of eye tracking hardware. Applications include foveated rendering [9,64], which optimizes computational resources in rendering by reducing resolution in the periphery, streaming algorithms that reduce the bandwidth of streamed 360 • content [24,38,52], intuitive interfaces for navigation and predicting intent [10,63], subtle gaze direction using luminance cues in the periphery to guide attention [31], redirected walking methods that take advantage of saccadic masking and blinks to orient the user within a limited physical space [46,79], classifying neurodegenerative disease through eye movements [62], virtual experiences designed to improve joint attention of children with ASD [55], and modeling how users explore 360 • content [73]. Eye tracking hardware in VR ranges from video-based oculography [45], electrooculography (EOG) [13], photo-sensor oculography (PS-OG) [48,84], and magnetic sclera coils [83].…”

Section: Introductionmentioning

confidence: 99%

The Security-Utility Trade-off for Iris Authentication and Eye Animation for Social Virtual Avatars

John

Jörg

Koppal

et al. 2020

IEEE Trans. Visual. Comput. Graphics

View full text Add to dashboard Cite

The gaze behavior of virtual avatars is critical to social presence and perceived eye contact during social interactions in Virtual Reality. Virtual Reality headsets are being designed with integrated eye tracking to enable compelling virtual social interactions. This paper shows that the near infra-red cameras used in eye tracking capture eye images that contain iris patterns of the user. Because iris patterns are a gold standard biometric, the current technology places the user's biometric identity at risk. Our first contribution is an optical defocus based hardware solution to remove the iris biometric from the stream of eye tracking images. We characterize the performance of this solution with different internal parameters. Our second contribution is a psychophysical experiment with a same-different task that investigates the sensitivity of users to a virtual avatar's eye movements when this solution is applied. By deriving detection threshold values, our findings provide a range of defocus parameters where the change in eye movements would go unnoticed in a conversational setting. Our third contribution is a perceptual study to determine the impact of defocus parameters on the perceived eye contact, attentiveness, naturalness, and truthfulness of the avatar. Thus, if a user wishes to protect their iris biometric, our approach provides a solution that balances biometric protection while preventing their conversation partner from perceiving a difference in the user's virtual avatar. This work is the first to develop secure eye tracking configurations for VR/AR/XR applications and motivates future work in the area.

show abstract